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Estudo histomorfológico do músculo pectoralis de frangos de corte acometidos com white stripingFerreira, Tamara Zinn January 2014 (has links)
A seleção de linhagens de frangos de corte com altas taxas de crescimento e aumento de rendimento muscular vem contribuindo para o surgimento de perdas significativas na indústria avícola em decorrência de modificações anatômicas. Dentre estas alterações, destaca-se uma miopatia que se caracteriza pelo aparecimento de graus de estrias esbranquiçadas no músculo Pectoralis major, as quais seguem a direção da fibra muscular, referida como white striping. A etiologia da white striping ainda é desconhecida, mas avaliações histológicas demonstraram que esta alteração é usualmente associada à degeneração muscular e alterações miopáticas. Problemas de qualidade da carne podem ser resultantes de mudanças estruturais, morfométricas e bioquímicas do tecido muscular, com consequente alteração nas fibras musculares. Para tanto este trabalho, conduzido através de dois experimentos, teve como objetivos caracterizar histopatologicamente a miopatia white striping em diferentes graus de severidade (NORM, MOD, SEV) no músculo Pectoralis major de frangos de corte e as características morfométricas das fibras musculares, bem como avaliar a incidência desta condição em frangos de corte de linhagem Cobb abatidos aos 42 dias de idade. No primeiro experimento, a avaliação histopatológica demonstrou uma miopatia degenerativa nos graus de severidade classificados como MOD e SEV, entretanto as amostras de grau MOD apresentaram necrose ou necrose multifocal moderada, enquanto as de grau SEV apresentaram necrose difusa e acentuada, sugerindo avanço do processo degenerativo. Não foi observada proliferação de tecido conjuntivo em nenhum dos graus de white striping analisados, caracterizando este caso como de ocorrência aguda. No segundo experimento, foram verificados menor área de tecido muscular, menor diâmentro e maior densidade de fibras nos músculos Pectoralis major de frangos acometidos com white striping (MOD e SEV) quando comparado aos peitos sem esta condição (NORM). Conforme os resultados obtidos nesta pequisa, pode-se concluir que as fibras com os graus MOD e SEV de white striping demonstraram o início de um processo de regeneração muscular, de característica hiperplásica. / Genetic selection of broiler chickens for growth rate and increase of muscle yield has contributed to the appearance of significant losses in the poultry industry caused by anatomical changes. Among these alterations stands out a myophathy characterized by the occurrence of white striations on Pectoralis major muscle, seen parallel to the direction of muscle fibers, referred as white striping. The etiology of white striping is still unknown but histological changes demonstrated that this alteration is usually associated with muscle degeneration and myopatic changes. Meat quality problems may result from structural, morphological and biochemical changes of muscle tissue with consequent alterations in muscle fibers. To this study, two experiments were conducted, and aimed to histopathologically characterize the myopathy white striping at varying degrees of severity (NORM, MOD, SEV) on broilers Pectoralis major muscle and the morphometric muscle fibers characteristics as well as evaluate the incidence of this condition on Cobb 500 broiler breast fillets slaughtered at 42 days of age. The histopathological evaluation on experiment 1 showed a degenerative myopathy in both MOD and SEV degrees, however the samples classified as MOD showed microscopically necrosis or necrosis multifocal moderate, while the classified as SEV showed necrosis diffuse and strong suggesting an advancement in the degenerative process. The proliferation of connective tissue was not observed for either of the degrees of white striping investigated, characterizing this profile as an acute occurrence. In experiment 2, small area and diameter and higher densities of muscle fiber were observed in broilers Pectoralis major muscle with white striping (MOD and SEV) compared to NORM. According to the results, we can conclude that muscle fibers with white striping showed the beginning of a muscle regeneration process with hyperplasic characteristics.
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Propriétés structurales et biochimiques du tissu conjonctif intramusculaire et tendreté de la viande bovine / Structural and biochemical properties of intramuscular connective tissue and beef tendernessDubost, Annabelle 23 October 2012 (has links)
La perception de la viande bovine par le consommateur est un enjeu crucial pour l’industrie de la viande. La tendreté reste l’une des qualités organoleptiques essentielle aux yeux du consommateur, avec la jutosité et la flaveur. L’objectif de ma thèse a été d’étudier les propriétés structurales et biochimiques du tissu conjonctif intramusculaire responsables de la dureté de base et de faire le lien avec la tendreté et plus largement avec les qualités organoleptiques de la viande. Le développement et la mise au point d’une méthode d’analyse d’images a permis d’étudier objectivement les caractéristiques des composantes périmysiale et endomysiale du tissu conjonctif intramusculaire et de montrer que la surface occupée par ces deux structures influençait la tendreté de la viande. Préalablement à l’étude biochimique et moléculaire du tissu conjonctif intramusculaire le dosage des protéoglycanes totaux a été développé et mis en place au laboratoire. Les résultats de cette deuxième partie ont permis de mettre en avant la complémentarité entre protéoglycanes, collagène total et liaisons de réticulation au sein du muscle et leur rôle sur la jutosité. Par ailleurs, nous avons pu mettre en évidence le rôle positif des protéoglycanes de haut poids moléculaire sur la jutosité, alors que les protéoglycanes de faible poids moléculaire, telle que la décorine,joueraient plutôt un rôle sur la dureté de la viande. L’ensemble des résultats obtenus confirme nos hypothèses, à savoir que la composante structurale ainsi que les molécules minoritairement présentes dans le tissu conjonctif peuvent influencer les qualités organoleptiques de la viande bovine. / The perception of beef by consumers is a crucial issue for the meat industry. Tenderness remains one of the sensory qualities essential to the consumer, with the juiciness and flavour. The aim of my thesis was to study the structural and biochemical properties of intramuscular connective tissue responsible for the background toughness and study relationships with tenderness and more widely with the sensory qualities of beef. The development of a method of image analysis was used to study objectively the characteristics of the perimysial and endomysial component of the intramuscular connective tissue. The results showed that the area occupied by these two structures influenced the beef tenderness. An assay for total proteoglycan measurement has been developed previously to the study of biochemical and molecular characteristics intramuscular connective tissue. The results obtained in this second part have highlighted the complementarities between proteoglycans, total collagen and cross-links within the muscle and their role on the juiciness. Furthermore, we were able to highlight the positive role of high molecular weight proteoglycans on juiciness, while low molecular weight proteoglycans, such as decorin, rather played a role in beef toughness. The overall results confirm our hypothesis that the structural components of the connective tissue and the small quantity of extracellular matrix molecules could influence the sensory qualities of beef.
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Women’s rights movements in Ethiopia : The role of activism via social media on traditional gender norms and attitudesJones-Virma, Marit January 2021 (has links)
The main aim of this Degree Project was to investigate the role of social media for women’s rights movements in Ethiopia, specifically for the #MeTooEthiopia movement, and whether utilising social media in their operations and mobilisations has enhanced the movements’ ability to raise awareness and challenge traditional gender norms. The research was investigated through the lens of digital activism and via the logic of connective action, by utilising in-depth semi-structured interviews with women’s rights activists in Ethiopia and overseas and undertaking a review of the #MeTooEthiopia movement social media platforms. Through the interviews, it was possible to identify numerous benefits and challenges relating to the country-specific cultural, social and economic context that women’s rights movements in Ethiopia have to operate in. For the #MeTooEthiopia movement specifically, operating an international movement within this context has been challenging, however due to its ability to diversify and adopt to both new and traditional communication technologies, the movement has been able to sustain its momentum and remain active in their attempt to raise awareness and challenge traditional gender norms. The findings also demonstrate that for contemporary women’s rights movements in Ethiopia, raising awareness and bringing along attitudinal change cannot be accomplished by only utilising new technologies. Rather, it is necessary to combine activism via social media with traditional forms of communication, including face-to-face meetings, to be able to have a reach across the wider society.
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As tough as leather: Macro to nano scale perspectives of collagen stabilityGoh, Kheng Lim 03 June 2019 (has links)
Content:
Leather is a fairly durable and flexible material created by tanning animal rawhides and can be found in many household and personal products. However, ensuring that the product endures attack from the environmental elements that contribute to its wear and tear is the key concern of the general consumer. Animal rawhides are soft collagenous connective tissues. The most important function of collagen is a mechanical one - to withstand loads acting on the leather material. The purpose of this paper is to show how findings from recent studies on the mechanics of collagen in connective tissues lend to the goal of structural biologists to establish a complete understanding of the functional significance of collagen in connective tissues. In particular, 28 different types of collagen have been identified - about 90% being type 1 collagen - in the human body. Most types of collagen participate in higher-order assemblies such as networks, filaments, microfibrils, fibrils, fibres/fascicles. These assemblies collectively form a hierarchical architecture in the tissue from the molecular level to the macroscopic level. A complete understanding the functional significance of collagen in connective tissues could direct the development of new technology, e.g. leather design and production. In this paper, I shall discuss findings related to the higher-order assemblies. The conventional understanding of the collagenous fibre-like structures - embedded in a hydrated ground substance - in connective tissue finds an analogy to engineering fibres reinforcing composite materials such as carbon fibre reinforced polymer composites. The macroscopic stress- strain response of the connective tissue to external loads acting on it is consistent with fibre composite behaviour. A structure-mechanical framework, underpinning the hierarchical architecture of the connective tissue, is proposed to explain this mechanical response of the tissue. By integrating models specific to the different levels of the tissue to enable better understanding of the macroscopic nature of the tissue, the framework serves as a representation of reality for guiding further research, especially for the purpose of exploring hypotheses and revealing properties for which only sparse (or no observational data) is available. This paper ends with a discussion on the prospect and challenges for future studies on collagen in connective tissues.
Take-Away:
A fresh look at the degree of collagen fibril alignment in tissue
Rethinking the mechanics of cross-linking between fibrils
Interfibrillar mechanics is governed by plastic stress transfer
Influence of fibril diameter on interfibrillar stress transfer
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Functional Analysis of MicroRNA-10b in Breast Carcinoma: A DissertationMoriarty, Charlotte M. Harwood 08 May 2009 (has links)
MicroRNAs (miRNAs) represent a class of small noncoding RNAs that regulate gene expression. Recent studies have shown that miRNAs are mis-expressed in various human cancers and that some miRNAs have the potential to act as tumor suppressors or oncogenes. MiR-10b is one miRNA that has been shown to be deregulated in breast cancer. However, current findings regarding miR-10b’s role in breast cancer are controversial. MiR-10b was originally reported to be downregulated in breast cancer compared to normal breast tissue. Subsequently, miR-10b was argued to be upregulated in metastatic breast cancer cell lines, acting as a potent pro-metastatic agent via regulation of HOXD10. This report was soon challenged by another group who reported that miR-10b expression in a large patient cohort correlated inversely and significantly with tumor size, grade, and vascular invasion, but did not correlate with development of distant metastases or survival. These latter data suggest that miR-10b may impede specific functions associated with breast cancer progression.
In this thesis, I present my analysis of miR-10b function in breast carcinoma cells, which revealed that it suppresses their migration and invasion. To define a mechanism that accounts for this suppressive function, I identified T-lymphoma invasion and metastasis 1 (TIAM1), a guanine nucleotide exchange factor for Rac1, as a miR-10b target and demonstrated that miR-10b inhibits TIAM1-dependent Rac1 activation, migration, and invasion. In addition, I identified the VEGF receptor fms-related tyrosine kinase 1 (FLT-1) as a second target of miR-10b and discovered a novel function for FLT-1 in promoting breast carcinoma cell migration and invasion. My results show, for the first time, that Rac activation can be regulated by a specific miRNA and provide a novel mechanism for the regulation of TIAM1 and FLT-1 in breast cancer. These data support the conclusion from clinical data that miR-10b expression correlates inversely with breast cancer progression, and suggest that miR-10b functions to impede breast carcinoma progression by regulating key target genes involved in cell motility.
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Protest Movements and the Climate Emergency Declarations of 2019: A New Social Media Logic to Connect and Participate in PoliticsDoolen, Joseph January 2020 (has links)
This thesis investigates the relationship between contemporary climate protest movements (Extinction Rebellion and Fridays For Future) and governmental bodies in European countries that declared a climate emergency in 2019. The primary contribution of this thesis is to demonstrate how emerging communication practices by these movements compare to the perceived influence of such practices among political decisionmakers in their governing bodies’ votes for a climate emergency declaration. Twitter content (tweets by movement accounts) surrounding protest actions of the climate movements was coded using concepts deduced from theoretical literature of participation, media and communication. Themes induced from this data were also used for coding. A thematic analysis of empirical interview text from semi-structured interviews of nine politicians in eight governmental bodies (six German city councils, that of Innsbruck, Austria and the Swiss cantonal parliament of Vaud) on this subject matter was done similarly. Relational thematic analyses of both datasets influenced the coding of one another. A frame analysis grounded in these data studied the use of social media imagery and text by the two movements. Another look at the interview data reflects the influence these movements had on climate emergency declarations via comparison of politicians’ stated impressions of the movements’ participation/influences with formations of tweeted movement frames. The data support the hypothesis that citizens engage via the connective power of personalized participatory culture on social media, enabling political participation. Today, we see a shift away from a political logic of social movements abiding to strong shared identity and meaning through frames of collective action. Instead, a social media logic, which aims to achieve the same functions, operates in loosely networked movements based on individualized frames of youth identity. This ‘connective identity’ bridges the participatory culture of social media with offline political participation in the streets and halls of power.
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APES TOGETHER STRONG!!! An Exploratory Case Study Into Newcomer Socialization Within the GameStop MovementLuser, Sebastian, Schreier, Toni January 2022 (has links)
Background: “APES TOGETHER STRONG“ was one of the slogans, that participants of the influential GameStop movement (who ironically called themselves “apes“) utilized to show their unity (“together strong“) and relentlessness in their seemingly irrational actions. Erupting in January 2021, retail investors that had formed a community via Reddit, collectively achieved to multiply the stock price of American gaming retail chain GameStop, causing huge losses for hedge funds, resulting in political discussions and social outrage. This community was quickly labelled as a social movement. Research Problem: Despite the widespread understanding that social media had and has major impacts on social movements and their constitution, research on various aspects concerning movements in the context of social media remain underdeveloped. On a broader level, the formation of digital social movements within online communities presents a suitable area of research. On a finer level, newcomers and their socialization were identified as research gaps. Research Purpose: The purpose of this study is to close these research gaps by identifying key factors of socialization within digital movements. Additionally, it aims at showcasing the implications of these factors on the broader community and movement development. Research Question: How are newcomers socialized and integrated in digital movements? Research Method: This study is a qualitative, inductive research. It follows the relativistic ontology and the social constructionism epistemology. The methodology is an explorative, single case study and data is purposively collected through interviews and from Reddit. The data is analyzed utilizing the Gioia method. Conclusion: Our findings concentrate on four dualities concerning socialization and community development. Community growth, purpose, jargon and activity are found to be inherently divergent themes and mechanisms within the movement. From this we abstract a framework towards a spectrum of socialization approaches ranging from regulated to unregulated socialization. As such, we showcase the implications of both ofthese ends and how communities must be flexible in their socialization approach.
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The Role of p21-Activated Kinase in Mechanical Stress-Induced Connective Tissue Growth Factor Upregulation in Mesangial CellsSukumar, Aravin 10 1900 (has links)
<p>Glomerulosclerosis (GS) is the irreversible scarring of glomerular tissue which underlies the development of chronic kidney disease (CKD). Increased intraglomerular capillary pressure (P<sub>gc</sub>) is a major contributor to the development of GS and can occur in both hypertensive and diabetic patients. With elevated P<sub>gc</sub>, <em>in vitro</em> and <em>in vivo</em> evidence suggest that mesangial cells (MC) experience cyclic stretch and secrete pro-fibrotic factors such as connective tissue growth factor (CTGF) which contributes to GS. The signaling pathways that are activated in response to elevated P<sub>gc</sub> and lead to extracellular matrix (ECM) production in MCs are the main focus of this thesis.</p> <p>Previous data demonstrated activation of the Rho GTPase, Rac1, with cyclic stretch in MCs. Furthermore, the most characterized effector of Rac1, p21-activated kinase (PAK), has been observed to have a role in endothelial cells (ECs) exposed to mechanical stress. We thus proposed that the Rac1-PAK signaling pathway is involved in mechanical stress signaling in MCs.</p> <p>Our data demonstrate that Rac1-PAK signaling was activated in response to cyclic stretch and required for stretch-induced CTGF production in MCs. RhoA activation was also regulated by Rac1-PAK signaling, and RhoA/ROCK were observed to mediate CTGF upregulation with stretch. Further investigation on the role of Rac1-PAK signaling and how it regulates CTGF in MCs exposed to stretch, will provide insight into potential therapeutic targets to delay the progression of hypertension-mediated CKD.</p> / Master of Science in Medical Sciences (MSMS)
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Towards a connective aesthetic : an a/r/tographic journeyKruger, Lara 03 1900 (has links)
Thesis (MA (VA))--Stellenbosch University, 2012. / ENGLISH ABSTRACT: See full text / AFRIKAANSE OPSOMMING: Sien volteks
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Beiträge zur biomechanischen Charakterisierung faseriger BindegewebeSichting, Freddy 20 July 2016 (has links) (PDF)
Im Mittelpunkt dieser kumulativ angefertigten Arbeit stehen fünf verschiedenartige biomechanische Untersuchungen faseriger Bindegewebe, welche in einer Gesamtschau zusammengeführt werden. Die einzelnen Beiträge setzen sich zusammen aus Untersuchungen zum Einfluss zellulärer Bestandteile auf die mechanischen Eigenschaften faseriger Bindegewebe und die Beeinflussung dieser Ergebnisse durch Messfehler, speziell am Beispiel des Materialschlupfs. Über diese beiden Beiträge wird eine Verbindung hergestellt zur rechnergestützten Simulation der Wirkung eines Beckenkompressionsgurts auf die Bänder des Beckenrings und dem Transmissionsverhalten faseriger Bindegewebe bei Zugbelastung. Im fünften Beitrag wird am Beispiel des Zusammenwirkens von Achillessehne, Fersenfettpolster und Plantarfaszie in vitro die Komplexität der Betrachtung faseriger Bindegewebe aufgezeigt. Die Zusammenführung der einzelnen Untersuchungen wird begleitet von der Frage, ob die bestehenden biomechanischen Untersuchungsansätze ausreichend sind, um ein umfassendes Verständnis zur funktionellen Bedeutung faseriger Bindegewebe aufbauen zu können.
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